Abd-Elkareem Elham, Ahmed-Farid Omar Abd Elhamid, Said Noha Mohamed
Biochemistry Department, Faculty of Science, Zagazig University, Zagazig, 44519, Egypt.
Physiology Department, National Organization for Drug Control and Research (NODCAR), Giza, 12553, Egypt.
Cell Biochem Biophys. 2025 Feb 10. doi: 10.1007/s12013-025-01684-8.
Scientific research is currently moving towards studies of natural antioxidants that could reduce the deleterious effects resulting from the toxicity of materials used in industry in order to preserve the environment and public health. Astaxanthin "king of antioxidants". is known for its remarkable protection against numerous environmentally harmful substances, but not against acrylonitrile, which is utilized in the manufacturing of plastics, rubber, and synthetic fibers. The goal of this investigation is to assess how astaxanthin can recover the normal CBC and normal organ architecture after acrylonitrile toxicity. Fifty rats were divided equally into five groups: positive control (acrylonitrile), negative control (saline), vehicle (corn oil), antioxidant (astaxanthin), and protective (astaxanthin + acrylonitrile). After sacrificing all the rats, CBC was done. Tissues of the heart, liver, and kidney were used for pathological examination and to assess TGF-β1 by immunohistochemistry, Our results showed an improvement in most of hematological parameters in the protective group compared to the acrylonitrile group. There was a significant improvement in RBC count, PCV, HB, RDW, and platelets, accompanied by a slight increase in MCV. Conversely, significant decreases were observed in PDW, MPV, MCH, and MCHC. Additionally, our results showed a slight decrease in WBCs and neutrophils, along with a slight increase in eosinophils and lymphocytes, and a significant increase in monocytes. There was a significant decrease in TGF-β1 level in rats treated with astaxanthin. All the organs showed an excellent recovery for the normal architecture. Astaxanthin can ameliorate acrylonitrile toxicity by restoring the normal levels of hematological parameters and histological structure.
目前,科学研究正朝着天然抗氧化剂的研究方向发展,这些抗氧化剂可以减少工业使用材料的毒性所产生的有害影响,以保护环境和公众健康。虾青素是“抗氧化剂之王”,以其对多种环境有害物质的显著保护作用而闻名,但对用于制造塑料、橡胶和合成纤维的丙烯腈却没有保护作用。本研究的目的是评估虾青素如何在丙烯腈中毒后恢复正常的全血细胞计数和正常的器官结构。50只大鼠被平均分为五组:阳性对照组(丙烯腈)、阴性对照组(生理盐水)、赋形剂组(玉米油)、抗氧化剂组(虾青素)和保护剂组(虾青素 + 丙烯腈)。在处死所有大鼠后,进行了全血细胞计数。取心脏、肝脏和肾脏组织进行病理检查,并通过免疫组织化学评估转化生长因子-β1。我们的结果显示,与丙烯腈组相比,保护剂组的大多数血液学参数有所改善。红细胞计数、红细胞压积、血红蛋白、红细胞分布宽度和血小板有显著改善,平均红细胞体积略有增加。相反,血小板分布宽度、平均血小板体积、平均红细胞血红蛋白含量和平均红细胞血红蛋白浓度显著下降。此外,我们的结果显示白细胞和中性粒细胞略有减少,嗜酸性粒细胞和淋巴细胞略有增加,单核细胞显著增加。用虾青素治疗的大鼠体内转化生长因子-β1水平显著降低。所有器官的正常结构均有良好恢复。虾青素可以通过恢复血液学参数和组织结构的正常水平来减轻丙烯腈的毒性。
